JP6740878B2 - Image processing apparatus, image processing method, image processing program - Google Patents

Description

The present invention relates to an image processing device, an image processing method, and an image processing program.

2. Description of the Related Art There is known an image processing apparatus that prints an image on a paper medium using a colorant such as toner and displays an image showing a finished state of a printed matter on a display unit such as a display. Some of such image processing apparatuses are capable of performing a so-called soft proofing process in which the color and texture of the printed matter displayed on the display are confirmed, and printing simulation and calibration are performed.

In soft proofing, the glossiness and texture of the printed matter itself can be displayed on the display by previewing the printed matter by reflecting the glossy component and the diffusion component from the printed matter (for example, Patent Document 1). reference).

In the technique disclosed in Patent Document 1, specular reflection light and diffuse reflection light in a sample printed matter are measured, and the measurement result is reflected in the preview image data of the printed matter. The specular reflection light is the light reflected by the gloss component, which is the print area where the toner adheres to show the gloss, and the diffuse reflection light is reflected by the diffusion component, which is the print area where the toner hardly adheres. It is reflected light.

However, in the technique disclosed in Patent Document 1, it is necessary to irradiate the sample printed matter with observation illumination for each color and amount of toner, and to measure specular reflection light and diffuse reflection light with a colorimeter.

In order to solve the above-mentioned problems, an object of the present invention is to reflect the glossiness and texture of the printed matter itself in the soft proof without using a colorimeter.

In order to solve the above problems, an aspect of the present invention is an output result that is information generated based on drawing information referred to by an image forming unit when outputting an image, and that is information indicating a result of the image forming output. A display control unit that displays information on a display unit, an output result information generation unit that generates the output result information, an amount of a colorant used for each pixel when the image forming unit outputs the image, A colorant amount calculation unit that is calculated based on information, a brightness ratio table that is brightness ratio information that is determined for each amount of the colorant, and a brightness ratio that is applied to the pixel based on information about the amount of the colorant. A luminance ratio information calculation unit that calculates for each pixel, based on the luminance ratio application information that is information that determines whether the luminance ratio is applied to the pixel and the calculated luminance ratio, A corrected output result information generation unit that performs brightness correction on the output result information to generate corrected output result information, and the display control unit displays the corrected output result information on the display unit. It is characterized in that

According to the present invention, it is possible to reflect the glossiness and texture of the printed matter itself on the soft proof without using a colorimeter.

The figure which shows the operation|use form of the image processing system which concerns on embodiment of this invention. FIG. 1 is a diagram showing a hardware configuration of an image processing apparatus according to an embodiment of the present invention. FIG. 3 is a diagram showing a functional configuration of an image forming apparatus according to an embodiment of the present invention. FIG. 3 is a diagram showing a functional configuration of an image processing unit according to the embodiment of the present invention. FIG. 3 is a diagram showing a functional configuration of a preview image correction unit according to the embodiment of the present invention. FIG. 6 is a diagram showing a positional relationship between observation illumination and a printed material when a brightness value is designated according to the embodiment of the present invention. The figure which shows the observation illumination reflected in the printed matter which concerns on embodiment of this invention. The figure which shows the brightness ratio designation|designated screen which concerns on embodiment of this invention. The figure which shows the brightness|luminance ratio curve which concerns on embodiment of this invention. The figure which shows the brightness|luminance ratio table which concerns on embodiment of this invention. 6 is a flowchart showing a flow of processing for generating a brightness ratio table according to the embodiment of the present invention. 6 is a flowchart showing a flow of processing for generating brightness correction preview image data according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In this embodiment, an image processing system that prints print data received from an information processing apparatus such as a PC that is a client terminal operated by a user will be described.

FIG. 1 is a diagram exemplifying an operation mode of the image processing system 4 according to the present embodiment. As shown in FIG. 1, the image processing system 4 according to the present embodiment includes an image processing device 1, a display unit 2, and an operation unit 3.

The image processing apparatus 1 includes a controller 100, a network I/F 108, and a print engine 106. The controller 100 is a control unit that causes the print engine 106 to execute print output, and the print engine 106 functions as an image forming unit. The controller 100 also generates raster data that is image data that the print engine 106 refers to when executing print output. The raster data is drawing information in which the data to be printed is drawn. The image processing apparatus 1 receives print target data via a network I/F 108 configured by a NIC (Network Interface Card) or the like.

The display unit 2 is a display device such as a liquid crystal display that displays a preview image that is output result information when the image processing apparatus 1 performs image forming output. The operation unit 3 is an input device such as a keyboard operated by the user 7 of the image processing system 4 to input information when performing correction on the preview image. The display unit 2 and the operation unit 3 are connected to the image processing apparatus 1 via a network. The display unit 2 and the operation unit 3 may be configured as part of an information processing device such as a PC.

In the present embodiment, the brightness ratio determined based on the subjectivity of the user 7 of the image processing system 4 based on the printed matter 6 (see FIG. 6) and the image displayed on the display unit 2 is the image processing apparatus. Sent to 1. Then, it is the gist of the present invention to reduce the difference between the image of the printed matter 6 viewed by the user 7 and the preview image by displaying the preview image using the ratio of the brightness.

Next, the hardware configuration of the image processing apparatus 1 according to the present embodiment will be described. FIG. 2 is a block diagram showing the hardware configuration of the image processing apparatus 1 according to this embodiment. As illustrated in FIG. 2, the image processing apparatus 1 according to the present embodiment includes a CPU (Central Processing Unit) 10, a RAM (Random Access Memory) 20, a ROM (Read Only Memory) 30, an HDD (Hard Disk Drive) 40, and an I. /F50 is connected via a bus 90.

When the display unit 2 and the operation unit 3 are configured as a PC, the PC is configured by the same hardware as the image processing device 1. At this time, the image processing apparatus 1 may be configured by connecting an LCD (Liquid Crystal Display) 60 and an operation unit 70 different from the operation unit 3 via the I/F 50.

The CPU 10 is a calculation means and controls the operation of the entire image processing apparatus 1. The RAM 20 is a volatile storage medium capable of reading and writing information at high speed, and is used as a work area when the CPU 10 processes information. The ROM 30 is a read-only non-volatile storage medium, and stores programs such as firmware. The HDD 40 is a non-volatile storage medium capable of reading and writing information, and stores an OS (Operating System), various control programs, application programs, and the like.

The I/F 50 connects and controls the bus 90 and various hardware and networks. The LCD 60 is a display unit for the user 7 to check the state of the image processing apparatus 1. The operation unit 70 is an input unit for the user 7 to input information such as print settings in the image processing apparatus 1. In the present embodiment, the operation unit 70 may be configured by a touch panel, hard keys, or the like.

In such a hardware configuration, a program stored in a storage medium such as the ROM 30, the HDD 40, or an optical disk is read into the RAM 20, and the CPU 10 performs an operation in accordance with the program, whereby the software control unit in the image processing apparatus 1 is executed. Are configured respectively. A combination of the software control unit configured in this way and hardware constitutes a functional block that realizes the function of the image processing apparatus 1.

Next, the functional configuration of the image processing apparatus 1 according to the present embodiment will be described with reference to FIG. FIG. 3 is a functional block diagram showing the functional configuration of the image processing apparatus 1 according to this embodiment. As shown in FIG. 3, the image processing apparatus 1 according to this embodiment includes a controller 100, a display panel 104, a paper feed table 105, a print engine 106, a paper discharge tray 107, and a network I/F 108.

The display panel 104 is a display unit such as the LCD 60 that visually displays the state of the image processing apparatus 1, and serves as a touch panel for the user 7 to directly operate the image processing apparatus 1 or to display information to the image processing apparatus 1. It is also the operation unit 70 operated when inputting. That is, the display panel 104 includes a function of displaying an image for receiving an operation by the user 7. The display panel 104 is realized by the LCD 60 and the operation unit 70 shown in FIG.

The network I/F 108 is an interface for the image processing apparatus 1 to communicate with other devices via a network, and an Ethernet (registered trademark) or a USB (Universal Serial Bus) interface is used. The network I/F 108 can communicate with the TCP/IP protocol. The network I/F 108 is realized by the I/F 50 shown in FIG.

The controller 100 is composed of a combination of software and hardware. Specifically, the programs stored in the ROM 30, the nonvolatile memory, and the nonvolatile storage medium such as the HDD 40 and the optical disk are loaded into the volatile memory (hereinafter, memory) such as the RAM 20, and the CPU 10 performs the operation according to the programs. The controller 100 is configured by a software control unit configured by performing the operations and hardware such as an integrated circuit. The controller 100 functions as a control unit that controls the entire image processing apparatus 1.

The main control unit 110 plays a role of controlling each unit included in the controller 100 and gives an instruction to each unit of the controller 100. The engine control unit 120 plays a role as a driving unit that controls or drives the print engine 106 and the like. The image processing unit 130, under the control of the main control unit 110, generates drawing information based on the image information to be printed out. The drawing information is information for the print engine 106, which is an image forming unit, to draw an image to be formed in the image forming operation.

Further, the image processing unit 130 processes image pickup data input from the network I/F 108 and generates image data. The image data is information stored in the storage area of the image processing device 1 or information transmitted to another information processing terminal or storage device via the network I/F 108.

The operation display control unit 140 displays information on the display panel 104 or notifies the main control unit 110 of information input via the display panel 104. The input/output control unit 150 inputs the information input via the network I/F 108 to the main control unit 110. The main control unit 110 also controls the input/output control unit 150 to access the network I/F 108 and other devices connected to the network via the network.

When the image processing apparatus 1 operates as a printer, the input/output control unit 150 first receives a print job via the network I/F 108. The input/output control unit 150 transfers the received print job to the main control unit 110. Upon receiving the print job, the main control unit 110 controls the image processing unit 130 to generate drawing information (drawing data) based on the document information or the image information included in the print job.

When the drawing information is generated by the image processing unit 130, the engine control unit 120 controls the print engine 106 to form an image on a sheet conveyed from the paper feed table 105 based on the generated drawing information. To run. That is, the image processing unit 130, the engine control unit 120, and the print engine 106 function as an image formation output unit. As a specific mode of the print engine 106, an image forming mechanism using an inkjet method, an image forming mechanism using an electrophotographic method, or the like can be used. The document on which the image is formed by the print engine 106 is ejected to the paper ejection tray 107.

When the image processing device 1 operates as a copying machine, the image processing unit 130 generates drawing information based on the image information generated by the image processing unit 130. Based on the drawing information, the engine control unit 120 drives the print engine 106 as in the case of the printer operation. When the drawing information and the imaging information have the same information format, the imaging information can be used as it is as the drawing information.

With the functional configuration as described above, the image processing apparatus 1 according to the present embodiment is characterized by the aspect when previewing the drawing information generated by the image processing unit 130. The image processing unit 130 generates preview image data based on the drawing information. Next, the functional configuration of the image processing unit 130 according to the present embodiment will be described with reference to FIG.

FIG. 4 is a functional block diagram showing the functional configuration of the image processing unit 130 according to this embodiment. The image processing unit 130 according to this embodiment includes a rasterization processing unit 131 and a preview image correction unit 132.

The rasterization processing unit 131 generates raster data, which is drawing information, based on the document information or image information received from the main control unit 110. Note that the rasterization processing unit 131 generates raster data in any one of RGB (Red, Green, Blue) and CMYK (Cyan, Magenta, Yellow, black) color modes. The rasterization processing unit 131 also inputs the generated raster data to the preview image correction unit 132.

The preview image correction unit 132 corrects the preview image data when generating the preview image data to be displayed on the display unit 2 based on the received raster image. FIG. 5 is a functional block diagram showing a functional configuration of the preview image correction unit 132 according to this embodiment. Next, the configuration of the preview image correction unit 132 will be described with reference to FIG.

The preview image correction unit 132 includes a brightness correction unit 210 and a brightness ratio table setting unit 220. The brightness correction unit 210 corrects the brightness of the preview image data. The brightness ratio table setting unit 220 sets the brightness ratio table based on the information of the brightness ratio in the color patch designated by the user 7. Details of the brightness ratio table setting unit 220 will be described later.

As shown in FIG. 5, the brightness correction unit 210 includes a preview image generation unit 211, a toner adhesion amount calculation unit 212, a brightness ratio data calculation unit 213, and a brightness correction preview data generation unit 214. The preview image generation unit 211 generates preview image data based on the raster data whose color mode is RGB received from the rasterization processing unit 131. Therefore, the preview image generation unit 211 functions as an output result information generation unit.

The toner attachment amount calculation unit 212 converts the raster data whose color mode is RGB received from the rasterization processing unit 131 into raster data whose color mode is CMYK by using a color profile or by performing complementary color conversion.

The toner adhesion amount calculation unit 212 uses the formulas of C=100−R/255×100, M=100−G/255×100, Y=100−B/255×100 to calculate the CMY values by complementary color conversion. The value of K may be calculated by GCR (Gray Component Replacement) or UCR (Under Color Removal).

Then, the toner adhesion amount calculation unit 212 calculates the toner amount, which is the total of the CMYK toner amounts for each pixel, based on the CMYK raster data. The toner amount calculated in this way is the toner amount used when the image formation output is executed in the print engine 106, and corresponds to the toner attachment amount attached for each pixel in the print area of the paper. Therefore, the toner adhesion amount calculation unit 212 converts the RGB drawing information into CMYK drawing information, and based on this CMYK drawing information, the amount of toner that is the colorant adheres to the paper, that is, the amount of toner used in printing. And functions as a colorant amount calculation unit for calculating.

The brightness ratio data calculation unit 213 is a brightness ratio information calculation unit that calculates the brightness ratio for each pixel based on the toner adhesion amount calculated by the toner adhesion amount calculation unit 212 and a brightness ratio table described later. The “luminance ratio” according to the present embodiment refers to the ratio of the luminance of each of the gloss component and the diffusion component in the print area. The brightness ratio information indicating the brightness ratio calculated by the brightness ratio data calculation unit 213 (hereinafter, “brightness ratio data”) is input to the brightness correction preview data generation unit 214.

The brightness correction preview data generation unit 214 receives the illumination data input from the main control unit 110 to the image processing unit 130. The illumination data is a mask image having the same image size as the original data, and the pixels in which the illumination is reflected have a value of "1" and the other pixels have a value of "0".

Then, the brightness correction preview data generation unit 214 generates brightness correction preview data which is the corrected output result information in which the brightness ratio data and the illumination data are reflected on the preview image data generated by the preview image generation unit 211. .. Therefore, the brightness correction preview data generation unit 214 functions as a corrected output result information generation unit. The brightness correction preview data generation unit 214 transmits the generated brightness correction preview data to the main control unit 110.

The brightness ratio table setting unit 220 includes a brightness ratio designation unit 221, a brightness ratio table generation unit 222, and a brightness ratio table storage unit 223. The brightness ratio designation unit 221 of the image processing system 4 is based on the comparison result between the printed matter 6 on which the color patch corresponding to the toner adhesion amount is printed and the color patch corresponding to the toner adhesion amount displayed on the display unit 2. The ratio of the brightness values is specified based on the color patch specified by the user 7. A mode for comparing the printed matter 6 and the color patch will be described later.

The brightness ratio table generation unit 222 generates a brightness ratio table based on the brightness ratio of the designated color patch. The brightness ratio table generation unit 222 interpolates the brightness ratios of the toner adhesion amounts other than those displayed on the display unit 2, and calculates the brightness ratio of each value from the toner amount 0% to the toner amount 400%. Generate a brightness ratio table. The brightness ratio table storage unit 223 is a storage area for storing the generated brightness ratio table.

With the configuration described above, the image processing apparatus 1 according to the present embodiment compares the printed matter 6 with the color patch, and determines the brightness ratio calculated based on the color patch arbitrarily selected by the subjectivity of the user 7. It can be reflected in the preview image data. Next, a mode will be described in which the printed matter 6 according to the present embodiment is compared with the color patch to perform an operation of designating the brightness value based on the subjectivity of the user 7.

FIG. 6 is a diagram showing an example of the positional relationship between the observation illumination 5 and the printed matter 6 in the operating environment in which the user 7 specifies the brightness value according to the present embodiment. The observation illumination 5 is, for example, an illumination light source used for measurement such as a fluorescent lamp or a white lamp. Further, as the observation illumination 5, a rod-shaped observation illumination 5A or a ball-shaped observation illumination 5B may be used.

The printed matter 6 is of various types, for example, glossy paper or plain paper, on which a pattern image is printed. The pattern image printed on the printed matter 6 is, for example, a uniform image having a toner amount of 50%, 100%, and 200%. Therefore, the specular reflection component and the diffuse reflection component of the pattern image are different depending on the type of paper used for the printed matter 6 even if the toner amount is the same.

In FIG. 6, a state in which the rod-shaped observation illumination 5A is reflected on the printed matter 6 is shown by a reflection 5a. When the ball-shaped observation illumination 5B is reflected on the printed matter 6, a reflection 5b as shown in FIG. 7 occurs. The user 7 of the image processing system 4 observes the printed matter 6 and the display unit 2 in the directions of arrows C to D in FIG.

The user 7 compares the color patch displayed on the display unit 2 with the printed matter 6 with the reflection 5a, and as a result, the printed matter obtained by observation is selected from the plurality of color patches displayed on the display unit 2. An arbitrary color patch that is recognized as matching the pattern image is selected.

FIG. 8 is a diagram showing a luminance ratio designation screen 80 displayed on the display unit 2 according to the present embodiment. As shown in FIG. 8, a plurality of color patches having different toner adhesion amounts are arranged on the luminance ratio designation screen 80. Each of the color patches to be Uji on the luminance ratio designation screen 80 includes areas where the luminance value of the reflection 5a is different. FIG. 8 shows an example in which color patches 81, 82, 83 having a toner adhesion amount of 50%, color patches 84, 85, 86 having a toner adhesion amount of 100%, and color patches 87, 88, 89 having a toner adhesion amount of 200% are displayed. Is.

In FIG. 8, the brightness of the reflection 5a of the color patches 81 to 89 is expressed by using a pattern having a higher density as the value is smaller. The user 7 of the image processing system 4 compares the printed matter 6 with a toner adhesion amount of 50%, the printed matter 6 with a toner adhesion amount of 100%, the printed matter 6 printed with a toner adhesion amount of 200%, and the color patches 81 to 89, respectively.

The user 7 feels that the color and gloss of the printed matter 6 are close to each other, one of the color patches 81, 82 and 83, one of the color patches 84, 85 and 86, and the color patches 87, 88 and 89. Select one from the list.

Then, the check boxes for designating the selected color patches (for example, the check boxes 93, 95, 97 when the color patches 83, 85, 87 are selected) are respectively designated by operating the operation unit 3. ..

It should be noted that by increasing the types of toner adhesion amount of the color patches displayed on the display unit 2, it is possible to correct the preview image data that more accurately reflects the subjectivity of the user 7 of the image processing system 4. Instead of increasing the types of toner adhesion amount of the color patch, the brightness ratio to the toner adhesion amount corresponding to an intermediate value other than the toner adhesion amount illustrated in FIG. 8 may be calculated by the calculation process.

For example, the brightness ratio corresponding to the toner adhesion amount of 75% and the toner adhesion amount of 150% can be calculated by linearly interpolating using the brightness value selected using FIG. As a result, the preview image data that reflects the subjectivity of the user 7 can be corrected in more detail by using more brightness ratios than the types of color patches designated based on the subjectivity of the user 7.

The brightness ratio designation unit 221 inputs information on the toner adhesion amount of the color patch and information indicating which color patch of the toner adhesion amount has been selected to the brightness ratio table generation unit 222. For example, when the check boxes 93, 95, and 97 are selected, the brightness ratio designating unit 221 indicates that the toner adhesion amount of 50% is “3”, the toner adhesion amount of 100% is “2”, and the toner adhesion amount of 200% is “2”. The information indicating “1” is input to the brightness ratio table generation unit 222.

The brightness ratio table generation unit 222 generates a brightness ratio curve as shown in FIG. 9 based on the information indicating the selected color patch and the information on the toner adhesion amount. As shown in FIG. 9, the brightness ratio curve according to the present embodiment includes information on the toner adhesion amount and information indicating which color patch is selected for each toner adhesion amount.

The brightness ratio table generation unit 222 interpolates the value of the toner adhesion amount, calculates the brightness ratio from the toner adhesion amount 0% to the toner adhesion amount 400%, and generates the brightness ratio curve. The brightness ratio table generation unit 222 may use, for example, a linear interpolation method or a Lagrange interpolation or a spline interpolation which is a non-linear interpolation method when interpolating the value of the toner adhesion amount.

Then, the brightness ratio table generation unit 222 generates a brightness ratio table based on the brightness ratio curve. FIG. 10 is a diagram showing a luminance ratio table according to the present embodiment. The brightness ratio table generation unit 222 describes the relationship between the toner adhesion amount and the brightness ratio based on the brightness ratio curve, and generates the brightness ratio table. In the brightness ratio table shown in FIG. 10, the relationship between the toner amount and the brightness ratio is described while changing the toner adhesion amount by 10%.

The brightness ratio table storage unit 223 stores the type of paper and the type of observation illumination when the brightness ratio table is generated in association with the brightness ratio table. Therefore, a brightness ratio table in which information on several types of paper and information on the type of the observation illumination 5 are associated with each other is created in advance, and the brightness ratio table storage unit 223 stores the brightness ratio table and the type of paper. The configuration may be such that information and information about the type of observation illumination are stored in association with each other.

The image processing apparatus 1 according to the present embodiment determines the luminance ratio based on the color patch determined to be similar to the printed matter 6 by the subjectivity of the user 7, and reflects the determined luminance ratio in the preview image data. Therefore, the brightness ratio for correcting the preview image data is determined before the correction of the preview image data.

Next, in the image processing system 4 according to the present embodiment, a process of generating a brightness ratio table will be described with reference to FIG. FIG. 11 is a flowchart showing the flow of processing for generating the luminance ratio table according to this embodiment.

The user 7 of the image processing system 4 operates the operation unit 3 to input the type of observation illumination 5 and the type of paper used for the printed matter 6 (S1101). Then, when there is no brightness ratio table associated with the type of the observation illumination 5 and the type of the sheet used for the printed matter 6, the brightness ratio designation unit 221 causes the color patch 81 as shown in FIG. The luminance ratio designation screen 80, which is a screen displaying ~ 89, is displayed on the display unit 2 (S1102).

As described above, on the luminance ratio designation screen 80, the color patches 81, 82, 83 with a toner adhesion amount of 50%, the color patches 84, 85, 86 with a toner adhesion amount of 100%, and the color patch 87 with a toner adhesion amount of 200%. , 88, 89 are displayed respectively.

The user 7 compares the printed matter 6 and the color patches 81 to 89 printed with the toner adhesion amount of 50%, the toner adhesion amount of 100%, and the toner adhesion amount of 200%, respectively. Then, the user 7 subjectively feels that the color of the printed matter 6 is close to one of the color patches 81, 82 and 83, one of the color patches 84, 85 and 86, and the color patches 87 and 88. , 89, one of them is selected, and the operation unit 3 is operated based on the determination.

The brightness ratio designation unit 221 receives the operation of the operation unit 3 via the input/output control unit 150, and selects the brightness ratio for each toner adhesion amount based on the information of the selected color patch (S1103). When the brightness ratio is selected for all the toner adhesion amounts (S1104/YES), the brightness ratio designation unit 221 determines the information of the toner adhesion amount of the color patch and which color patch of the toner adhesion amount is selected. The information shown is input to the brightness ratio table generation unit 222.

The brightness ratio designation unit 221 does not select the color patch for every toner adhesion amount, and when the brightness ratio is not selected (S1104/NO), the display unit 2 also displays color patches for other toner adhesion amounts. The display unit 2 displays a screen notifying that the selection is to be performed.

The brightness ratio table generation unit 222 generates a brightness ratio curve as shown in FIG. 9 based on the information on the toner adhesion amount of the color patch and the information indicating which color patch of the toner adhesion amount is selected (S1105). ). The luminance ratio table generation unit 222 interpolates the value of the toner adhesion amount and generates a luminance ratio curve.

Then, the brightness ratio table generation unit 222 generates a brightness ratio table describing the relationship between the toner adhesion amount and the brightness ratio based on the brightness ratio curve (S1106), and the generated brightness ratio table is stored in the brightness ratio table storage unit. 223. The brightness ratio table storage unit 223 stores the generated brightness ratio table (S1107).

The image processing system 4 according to the present embodiment corrects the preview image data based on the brightness ratio table generated in this way, and displays it on the display unit 2. Next, a flow of processing for generating the preview image data whose brightness is corrected according to the present embodiment will be described with reference to FIG. FIG. 12 is a flowchart showing the flow of processing for generating the brightness correction preview image data according to this embodiment.

First, document data is input to the image processing apparatus 1 based on an operation of the user 7 of the image processing system 4. When printing the document data, the user 7 operates the operation unit 3 to input the paper used for printing, the lighting conditions around the image processing apparatus 1, and the like.

When document data is input to the image processing unit 130 by the main control unit 110 (S1201), the rasterization processing unit 131 generates raster data whose color mode is RGB based on the document data (S1202). The rasterization processing unit 131 inputs the generated raster data to the preview image correction unit 132.

The preview image generation unit 211 generates preview image data based on the input raster data (S1203), and inputs the preview image data to the brightness correction preview data generation unit 214. Further, the toner adhesion amount calculation unit 212 converts the input raster data whose color mode is RGB into raster data whose color mode is CMYK. Then, based on the CMYK raster data, the toner adhesion amount, which is the sum of the CMYK toner amounts for each pixel, is calculated (S1204).

The brightness ratio data calculation unit 213 is stored in the brightness ratio table storage unit 223 based on the information on the paper used for printing and the illumination situation around the image processing device 1 input from the operation unit 3 to the image processing device 1. The read brightness ratio table is read (S1205).

When the brightness ratio data calculation unit 213 reads the brightness ratio table, it calculates the brightness ratio data for each pixel based on the toner adhesion amount for each pixel and the brightness ratio table calculated in S1204 (S1206). The brightness ratio data for each pixel calculated by the brightness ratio data calculation unit 213 is input to the brightness correction preview data generation unit 214.

In the process of S1206, the brightness ratio data calculation unit 213 reads the brightness ratio table and linearly interpolates the toner adhesion amount and the brightness ratio value for each pixel to generate a brightness ratio curve as shown in FIG. May be.

The brightness correction preview data generation unit 214 receives the preview image data from the preview image generation unit 211 and the brightness ratio data for each pixel from the brightness ratio data calculation unit 213. Next, the brightness correction preview data generation unit 214 acquires the illumination data via the main control unit 110, refers to the value of each pixel of the illumination data, and performs the brightness correction on the preview image data (S1207). ).

When the pixel of the illumination data has a value of “1”, the brightness correction preview data generation unit 214 multiplies the RGB value of the preview image data by the value of the brightness ratio data at the same pixel position. When the pixel of the illumination data has a value of “0”, the brightness correction preview data generation unit 214 holds the RGB value of the preview image data as it is.

Therefore, the illumination data is brightness ratio application information that determines whether or not to apply the brightness ratio information to each pixel. It should be noted that even in a configuration in which the pixels of the region corresponding to a predetermined shape of the observation illumination 5 in the illumination data, for example, the same shape and size as the observation illumination 5A and the observation illumination 5B, have a value of "1". Good.

The brightness correction preview data generation unit 214 checks whether or not the brightness correction has been performed for all the pixels included in the illumination data (S1208). When the brightness correction preview data generation unit 214 performs the brightness correction on all the pixels included in the illumination data (S1208/YES), the brightness-corrected preview image data is subjected to the brightness-corrected preview image data based on the brightness-corrected preview image data. Is generated and transmitted to the main control unit 110 (S1209).

When the main control unit 110 receives the brightness-corrected preview image data, the main control unit 110 causes the display unit 2 to display the preview image data via the input/output control unit 150. As described above, in the image processing system 4 according to the present embodiment, the glossiness and texture of the printed matter 6 itself can be reflected on the printed matter 6 displayed on the display without using a colorimeter or the like.

Further, in the present embodiment, the brightness correction is performed using the brightness ratio determined based on the subjectivity of the user 7 of the image processing system 4. Therefore, the glossiness and texture of the printed material 6 visually recognized by the user 7 is reflected on the printed material 6 displayed on the display, as compared with the brightness correction performed based on the physically measured specularly reflected light or diffusely reflected light. be able to.

In the processing of S1103, it is possible to use the printed matter 6 with the toner adhesion amount of 50% printed with the adhesion amount of CMY of about 17%, or the printed material using only K for 50%. it can. At this time, if the printed matter 6 with the toner adhesion amount of 50% is a CMY mixed color image, it is desirable to use the CMY mixed color image also for the printed matter 6 with the toner adhesion amount of 100%.

Further, with the K single color, the printed matter 6 having a toner adhesion amount of 200% cannot be printed. Therefore, it is desirable to use the printed matter 6 that is printed so that CMY has the same amount when the toner adhesion amount is in the range of 100% to 300%.

1 image processing apparatus 2 display section 3 operation section 4 image processing system 5 observation illumination 6 printed matter 6
7 user 7
10 CPU
20 RAM
30 ROM
40 HDD
50 Interface 60 LCD
70 Operation Unit 90 Bus 100 Controller 104 Display Panel 105 Paper Feed Table 106 Print Engine 107 Paper Ejection Tray 108 Network I/F
110 main control unit 120 engine control unit 130 image processing unit 131 rasterization processing unit 132 preview image correction unit 140 operation display control unit 150 input/output control unit 210 brightness correction unit 211 preview image generation unit 212 toner adhesion amount calculation unit 213 brightness ratio data Calculation unit 214 Luminance correction preview data generation unit 220 Luminance ratio table setting unit 211 Luminance ratio designation unit 212 Luminance ratio table generation unit 213 Luminance ratio table storage unit

JP, 2012-44421, A

Claims (10)

A display control unit that causes the display unit to display output result information that is information that is generated based on drawing information that the image forming unit refers to during image forming output, and that is information indicating the result of the image forming output;
An output result information generation unit that generates the output result information,
A colorant amount calculator that calculates the amount of the colorant used for each pixel when the image forming unit outputs the image, based on the drawing information;
A brightness ratio information calculation unit that calculates a brightness ratio to be applied to the pixel for each pixel based on a brightness ratio table that is brightness ratio information determined for each amount of the colorant and information about the amount of the colorant. ,
Based on the brightness ratio application information, which is information that determines whether or not to apply the brightness ratio to the pixel, and the calculated brightness ratio, brightness correction is performed on the output result information and corrected. A corrected output result information generation unit that generates output result information,
Including,
The display control unit,
An image processing apparatus, wherein the corrected output result information is displayed on the display unit. The image processing apparatus according to claim 1, further comprising: a brightness ratio table generation unit that generates the brightness ratio table based on brightness ratio information designated by the user of the image processing apparatus for each amount of the colorant. .. The display control unit,
For each amount of the colorant, display a plurality of image information including a plurality of regions having different brightness values,
The brightness ratio table generation unit,
The image processing apparatus according to claim 2, wherein the brightness ratio information is determined based on a ratio of the brightness values included in the image information designated by the user, and the brightness ratio table is generated. The brightness ratio table generation unit,
The image processing apparatus according to claim 2, wherein the brightness ratio table is generated by performing linear interpolation or non-linear interpolation on the brightness ratio information. The brightness ratio table generation unit,
The image processing apparatus according to any one of claims 2 to 4, wherein the image forming unit generates the brightness ratio table for each medium on which the image formation and output are performed. The colorant amount calculation unit,
The RGB drawing information in which the color mode is RGB is converted into CMYK drawing information in which the color mode is CMYK, and the amount of the colorant is calculated for each pixel based on the CMYK drawing information. The image processing apparatus according to any one of claims 1 to 5. The colorant amount calculation unit,
The amount of the colorant for each pixel is calculated based on the CMYK drawing information converted by using a color profile or performing complementary color conversion for the RGB drawing information. Item 6. The image processing device according to item 6. The brightness ratio application information is information that determines whether or not to apply the brightness ratio information to the pixel in a predetermined shape,
The corrected output result information generation unit,
Based on the brightness ratio application information and the brightness ratio information, brightness correction is performed on the output result information for the pixels in the region corresponding to the predetermined shape, and the corrected output result information is generated. The image processing apparatus according to claim 1, wherein the image processing apparatus is an image processing apparatus. The image forming unit generates output result information, which is information generated based on drawing information that is referred to at the time of image forming output, and is information indicating a result of the image forming output,
The image forming unit calculates the amount of the colorant used for each pixel in the image forming output based on the drawing information,
Based on the brightness ratio table and the information of the amount of the colorant which is the brightness ratio information determined for each amount of the colorant, the brightness ratio to be applied to the pixel is calculated for each pixel,
Based on the brightness ratio application information, which is information that determines whether or not to apply the brightness ratio to the pixel, and the calculated brightness ratio, brightness correction is performed on the output result information and corrected. Generate output result information,
An image processing method, wherein the corrected output result information is displayed on a display unit. A step of generating output result information, which is information generated based on drawing information referred to by the image forming unit at the time of image forming output and is information indicating a result of the image forming output;
A step in which the image forming unit calculates the amount of the colorant used for each pixel in the image forming output based on the drawing information;
Calculating a luminance ratio to be applied to the pixel for each pixel based on a luminance ratio table which is luminance ratio information determined for each amount of the colorant and information on the amount of the colorant.
Based on the brightness ratio application information, which is information that determines whether or not to apply the brightness ratio to the pixel, and the calculated brightness ratio, brightness correction is performed on the output result information and corrected. Generating output result information,
Displaying the corrected output result information on a display unit,
An image processing program for executing the following.